Study of Rule Placement Schemes for Minimizing TCAM Space and Effective Bandwidth Utilization in SDN

Abstract Software-defined networking (SDN) is an emerging trend where the control plane and the data plane are separated from each other, culminating in effective bandwidth utilization. This separation also allows multi-vendor interoperability. Link failure is a major problem in networking and must be detected as soon as possible because when a link fails the path becomes congested and packet loss occurs, delaying the delivery of packets to the destination. Backup paths must be configured immediately when a failure is detected in the network to speed up packet delivery, avoid congestion and packet loss and provide faster convergence. Various SDN segment protection algorithms that efficiently reduce CPU cycles and flow table entries exist, but each has drawbacks. An independent transient plane technique can be used to reduce packet loss but is not as efficient when multiple flows try to share the same link. The proposed work focuses on reducing congestion, providing faster convergence with minimal packet loss and effectively utilizing link bandwidth using bandwidth-sharing techniques. An analysis and related studies show that this method performs better and offers a more reliable network without loss, while simultaneously ensuring the swift delivery of data packets toward the destination without congestion, compared to the other existing schemes.

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BAM-Chord

International Journal of Distributed Systems and Technologies ◽

10.4018/jdst.2013010104 ◽

2013 ◽

Vol 4 (1) ◽

pp. 43-55 ◽

Cited By ~ 1

Author(s):

Hoai Son Nguyen ◽

Ngoc Anh Nguyen ◽

Huong Bui Thi Lan

Keyword(s):

Multicast Tree ◽

Effective Bandwidth ◽

Bandwidth Utilization ◽

Hash Tables ◽

Application Level Multicast ◽

Technical Issues ◽

Adaptive Multicast ◽

Bandwidth Capacity ◽

Node Identifier ◽

Network Scalability

In recent years, there has been considerable interest in applying Distributed Hash Tables (DHTs) to application-level multicast since DHTs have many advantages that are good for multicast applications: decentralization, scalability, fault tolerance, load balancing, and good routing performances. However, an effective bandwidth utilization method is required for DHT-based multicast systems because of a number of technical issues such as heterogeneous node capacity and dynamic membership. In this paper, the authors propose their BAM-Chord (i.e., Bandwidth Adaptive Multicast over Chord), a DHT-based multicast system that focuses on host heterogeneity, network scalability and effective bandwidth utilization. In the authors’ system, when a node joins into the system, it will find out an appropriate position (i.e., node identifier) on a BAM-Chord ring and create links to neighbor nodes based on node’s bandwidth capacity such that the multicast tree can be built efficiently and balanced. Therefore, their system can utilize bandwidth of every node efficiently to reduce the depth of the multicast tree, increase network scalability and take advantages of DHTs in maintaining the multicast tree.

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Efficient Dynamic Pricing Scheme for Effective Bandwidth Utilization in Mobile WIMAX IEEE802.16e

Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering - Wireless Internet ◽

10.1007/978-3-319-18802-7_36 ◽

2015 ◽

pp. 271-277

Author(s):

Kafilu Barau Danbatta ◽

Umar Garba Danbatta

Keyword(s):

Dynamic Pricing ◽

Effective Bandwidth ◽

Mobile Wimax ◽

Bandwidth Utilization ◽

Pricing Scheme

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A Comprehensive Worst Case Bounds Analysis of IEEE 802.15.7

Journal of Sensor and Actuator Networks ◽

10.3390/jsan10020023 ◽

2021 ◽

Vol 10 (2) ◽

pp. 23

Author(s):

Harrison Kurunathan ◽

Ricardo Severino ◽

Eduardo Tovar

Keyword(s):

Visible Light Communication ◽

Effective Bandwidth ◽

Bandwidth Utilization ◽

Medium Access ◽

Additional Mechanism ◽

Worst Case ◽

Physical Layers ◽

High Data ◽

Time Critical ◽

The Internet Of Things

Visible Light Communication (VLC) has been emerging as a promising technology to address the increasingly high data-rate and time-critical demands that the Internet of Things (IoT) and 5G paradigms impose on the underlying Wireless Sensor Actuator Networking (WSAN) technologies. In this line, the IEEE 802.15.7 standard proposes several physical layers and Medium Access Control (MAC) sub-layer mechanisms that support a variety of VLC applications. Particularly, at the MAC sub-layer, it can support contention-free communications using Guaranteed Timeslots (GTS), introducing support for time-critical applications. However, to effectively guarantee accurate usage of such functionalities, it is vital to derive the worst-case bounds of the network. In this paper, we use network calculus to carry out the worst-case bounds analysis for GTS utilization of IEEE 802.15.7 and complement our model with an in-depth performance analysis. We also propose the inclusion of an additional mechanism to improve the overall scalability and effective bandwidth utilization of the network.

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Effective Bandwidth Utilization using Trusted LPEs in Anonymous Communication

International Journal of Computer Applications ◽

10.5120/7200-9977 ◽

2012 ◽

Vol 47 (7) ◽

pp. 22-24

Author(s):

B. DurgaAnuja ◽

R. Srinivas

Keyword(s):

Effective Bandwidth ◽

Anonymous Communication ◽

Bandwidth Utilization

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QoS-based active dropping mechanism for NGN video streaming optimization

The Knowledge Engineering Review ◽

10.1017/s0269888914000186 ◽

2014 ◽

Vol 29 (4) ◽

pp. 484-495 ◽

Cited By ~ 2

Author(s):

Chi-Yuan Chen ◽

Tin-Yu Wu ◽

Wei-Tsong Lee ◽

Han-Chieh Chao ◽

Jen-Chun Chiang

Keyword(s):

Wireless Networks ◽

Video Streaming ◽

Scalable Video Coding ◽

Video Quality ◽

Buffer Management ◽

Base Station ◽

Effective Bandwidth ◽

Bandwidth Utilization ◽

Network Loading ◽

The Impact

AbstractVideo streaming over mobile wireless networks is getting popular in recent years. High video quality relies on large bandwidth provisioning, however, it decreases the number of supported users in wireless networks. Thus, effective bandwidth utilization becomes a crucial issue in wireless network as the bandwidth resource in wireless environment is precious and limited. The NGN quality of service mechanisms should be designed to reduce the impact of traffic burstiness on buffer management. For this reason, we propose an active dropping mechanism to deal with the effective bandwidth utilization in this paper. We use scalable video coding extension of H.264/AVC standard to provide different video quality for users of different levels. In the proposed dropping mechanism, when the network loading exceeds the threshold, the dropping mechanism starts to drop data of the enhancement layers for users of low service level. The dropping probability alters according to the change in network loading. With the dropping mechanism, the base station increases the system capability and users are able to obtain better service quality when the system is under heavy loading. We also design several methods to adjust the threshold value dynamically. By using the proposed mechanism, better quality can be provided when the network is in congestion.

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